CN1162956C - Electric source switch appliance - Google Patents

Abstract

If set rectifying smoothing circuit as DC electric source of DC-DC convertor, waveshape of AC input current is deformed and power factor reduced. A capacitor 2 for smoothing input connects with rectifying circuit 1 via a reactive coil 20 and a diode 21 for preventing reflux. A primary coil 13 of the transformer 3 connected in parallel with the series circuit of switch element 4 on the capacitor 2 for smoothing input. A output rectifying smoothing circuit 5 connects to secondary coil 14 of the transformer 3. A tap 23 is set in the primary coil 13. A capacitor 22 for boosted circuit connected between the reactive coil 20 and the tap 23.

Description

Switching power unit

The switching power unit that the present invention relates to based on AC power and the direct current power supply load is used.

As shown in Figure 1, existing typical switching power unit is made of rectification circuit 1, input smoothing capacitor 2, transformer 3, the thyristor 4, output rectifier smoothing circuit 5, ON-OFF control circuit 6 and the voltage detecting circuit 7 that are made of transistor.

Rectification circuit 1 is the well-known single-phase full-wave rectifer circuit that bridge type connects 4 diode D1, D2, D3 and D4, has a pair of AC input terminal 8,9 and a pair of direct current lead-out terminal 10,11.Input smoothing capacitor 2 is connected 10,11 of a pair of direct current lead-out terminals of rectification circuit 1.Transformer 3 is by magnetic core 12 and be wrapped on this magnetic core 12 and the primary coil 13 and the secondary coil 14 that carry out electromagnetic coupled mutually constitutes.One end of primary coil 13 is connected on the end of input smoothing capacitor 2, its other end is connected on the other end of input smoothing capacitor 2 by switch element 4.Output rectifier smoothing circuit 5 is made of with capacitor 16 with diode 15 and output smoothing the output rectification.Output smoothing is connected in parallel with diode 15 and secondary coil 14 by the output rectification with capacitor 16.The polarity of setting primary coil 13 and secondary coil 14 is shown in the bullet among Fig. 1.Therefore, the diode 15 that is connected on the secondary coil 14 keeps nonconducting state in the conduction period of switch element 4, is conducting state at blocking interval.Load 19 is connected connects output smoothing with 17,18 of pair of output of capacitor 16.Voltage detecting circuit 7 detects the voltage of 17,18 of pair of output, and flows to control circuit 6.Generally speaking, divider resistance, reference voltage power supply and error amplifier that voltage detecting circuit 7 is used by the detection output voltage constitute, the detected value of the output voltage that is obtained by divider resistance and the reference voltage of reference voltage power supply are inputed to error amplifier, and the output of error amplifier becomes voltage detection signal or Voltage Feedback control signal.Control circuit 6 forms the control signal that is made of pwm pulse of the certain usefulness of voltage that makes 17,18 of lead-out terminals, thus, switch element 4 is carried out conducting turn-off control.From Fig. 2 of the control circuit 6 of simple face of land diagrammatic sketch 1 as can be known, this control circuit 6 is made of saw-toothed wave generator 6a, comparator 6b and drive circuit 6c, voltage output for the voltage detecting circuit 7 of Fig. 1 of for example sawtooth voltage about 20～150kHz and supply line 7a compares to frequency, make the square wave impulse, the control signal that comprises this pulse is flowed to base stage as the control element of switch element 4 by drive circuit 6.In addition, voltage detecting circuit 7 carries out optical coupling with control circuit 6 generally speaking.

When utilizing this switching power unit,, switch element 4 conductings are turn-offed according to control signal from control circuit 6 outputs to load 19 supply capabilities.In the conduction period of switch element 4 Ton, electric current flows through the closed circuit that is made of smoothing capacitor 2, primary coil 13 and switch element 4.In this conduction period, because diode 15 not conductings are smoothly used in the output rectification, so magnetic energy is accumulated in the iron core 12 of transformer 3.In switch element 4 blocking interval Toff,, electric power is supplied with output smoothing capacitor 16 and load 19 because the release of the energy that transformer 3 is accumulated makes rectification smoothly use diode 15 conductings by the voltage of responding in the secondary coil 14.

, the charging current of input smoothing capacitor 2 only the rectifier output voltage of the AC supply voltage Vin of for example 50Hz of 8,9 of the AC input terminals shown in Figure 3 peak value higher than the voltage Vc1 of capacitor 2 constantly t1, t2 and near flow through.Therefore, the interchange input current Iin that flows through AC input terminal 8 and 9 is impulse waveform shown in Figure 3, contains high fdrequency component.In addition, the power factor in the AC input terminal 8,9 degenerates.

In addition, shown in dashed lines among Fig. 3, for input smoothing capacitor 2 is charged off and on, this voltage Vc1 is cyclic variation.Its result, shown in dashed lines among Fig. 3, the peak value of the voltage Vs between the collector emitter of switch element 4 and the electric current I s of switch element 4 changes along with the variation of the voltage Vc1 of input smoothing capacitor 2.

The object of the present invention is to provide and a kind ofly can utilize fairly simple circuit to improve the power factor in the AC input terminal and the switching power unit of waveform.

For the present invention who solves above-mentioned problem, achieve the above object is the switching power unit that the direct current power supply load is used, it is characterized in that possessing: have the AC input terminal that is connected on the AC power source of sine wave and the rectification circuit of a pair of direct current lead-out terminal; The one end is connected one reactance coil of above-mentioned a pair of direct current lead-out terminal; The one end is connected on the other end of above-mentioned reactance coil, and has the diode that is carried out forward biased directivity by the output voltage of above-mentioned rectification circuit; Be connected the input smoothing capacitor between another of the other end of above-mentioned diode and above-mentioned a pair of direct current lead-out terminal; The one end is connected on the end of above-mentioned input smoothing capacitor, and possesses the transformer of the coil that the band tap is arranged; Be connected the other end of coil of above-mentioned band tap and the switch element between above-mentioned another dc output end; Being connected booster circuit between the tap of coil of the other end of above-mentioned reactance coil and above-mentioned band tap forms and uses capacitor; Be connected the output rectifier smoothing circuit on the above-mentioned transformer and use the frequency higher above-mentioned switch element to be carried out the control circuit of conducting-shutoff control usefulness than the frequency of the alternating voltage of supplying with above-mentioned AC input terminal.

In addition, shown in the 2nd aspect of invention, be preferably in secondary coil is set in the transformer.

In addition, shown in the 3rd aspect of invention, the output rectification preferably has the directivity that is conducting state at switch element in conduction period with diode.

In addition, shown in the 4th aspect of invention, will export rectifier smoothing circuit and switch element is connected in parallel, and can form switch mode regulator.

In the each side of invention, the electric current that not only flows through the input smoothing capacitor flows through reactance coil, and forms with capacitor to the electric current of the circuit of switch element by booster circuit and also to flow through reactance coil.In addition, because input smoothing capacitor utilization charged by the voltage that reactance coil boosts, so near the peak value of input ac voltage Vin and but also in polarizers of big angle scope, flow through the charging current of input smoothing capacitor not only.In addition, the sine voltage of the voltage of the output stage of reactance coil and AC power carries out the sinusoidal wave shape variation synchronously.Therefore, the envelope of amplitude that flows through the charging current of the amplitude of electric current of switch element and input smoothing capacitor carries out sinusoidal wave shape and changes.Therefore, the current envelope curve of AC input terminal also carries out sinusoidal wave shape and changes, and can realize the improvement of electric wave waveform and the improvement of power factor.

In addition, because switch element can be used for this two aspects of improving of DC-DC conversion and waveform, so utilize simple circuit just can reach the improvement of waveform and the improvement of power factor.

Fig. 1 is the circuit diagram of the existing switching power unit of expression.

Fig. 2 is the block diagram of the control circuit of presentation graphs 1 briefly.

Fig. 3 is the oscillogram of the each several part state of presentation graphs 1 briefly.

Fig. 4 is the circuit diagram of the switching power unit of expression the 1st embodiment.

Fig. 5 is the oscillogram of the each several part state of presentation graphs 4 briefly.

Fig. 6 is the circuit diagram of the switching power unit of expression the 2nd embodiment.

Fig. 7 is the circuit diagram of the switching power unit of expression the 3rd embodiment.

Secondly, with reference to Fig. 4～Fig. 7 example of the present invention and embodiment are described.But in Fig. 4～Fig. 7, in fact identical with Fig. 1～Fig. 3 part is marked with identical symbol, and its explanation is omitted.In addition, common each other part is marked with identical symbol in Fig. 4～Fig. 7, and representational 1 figure of apparatus describes common part, omits the explanation among other figure.

[the 1st embodiment]

The switching power unit of the 1st embodiment shown in Figure 4 is to stop reactance coil 20, adverse current the capacitor 22 with diode 21 and booster circuit formation usefulness to be attached in the circuit of Fig. 1, and other structure is identical with Fig. 1.

That is, the switching power unit of Fig. 4 has the rectification circuit 1 identical with Fig. 1 structure, input smoothing capacitor 2, transformer 3, switch element 4, output rectifier smoothing circuit 5, control circuit 6 and voltage detecting circuit 7., in the primary coil 13 of transformer 3, tap 23 is set, primary coil 13 is divided into part 1 13a and part 2 13b.Be connected on dc output end 10 of rectification circuit 1 by a coil and an end that boosts with reactance coil 20 that constitutes unshakable in one's determination.It is that anode is connected on the other end of reactance coil 20 that adverse current stops the end with diode 21, and its other end is that negative electrode is connected on the end of input smoothing capacitor 2.The output voltage that diode 21 has by rectification circuit 1 carries out forward biased directivity.Booster circuit forms with capacitor 22 and is connected between the tap 23 of the other end of reactance coil 20 and primary coil 13.The series circuit of switch element 4 and primary coil 13 is connected in parallel with input smoothing capacitor 2.

Secondly, the work of the switching power unit of Fig. 5 key diagram 4 of the each several part state of reference table diagrammatic sketch 4.If utilize the control of control circuit 6, the frequency (for example 100Hz) that switch element 4 usefulness are higher than the frequency (for example 50Hz) of the AC-input voltage Vin of 8,9 of AC input terminals is carried out conducting and is turn-offed, then in the transformer 3 energy accumulate and the circuit of release and Fig. 1 similarly takes place, by secondary coil 14 and output smoothing with circuit 5 with electric power supply load 19., if the voltage ratio desired value height of lead-out terminal 17,18, then the conduction period Ton of switch element 4 shortens, owing in this conduction period Ton, be accumulated in the energy reduction in the transformer 2, so the voltage of lead-out terminal 17,18 returns desired value.Otherwise, when the voltage ratio desired value of lead-out terminal 17,18 is hanged down, take place and above-mentioned opposite work.

In switch element 4 conduction period Ton, identical with the circuit of Fig. 1, the output rectification smoothly keeps nonconducting state with diode 15, and energy is accumulated in the transformer 3.In switch element 4 blocking interval Toff, the output rectification smoothly is conducting state with the release of diode 15 by the energy accumulation of transformer 3, and energy is supplied to capacitor 16.In addition, in switch element 4 blocking intervals, part 1 13a, booster circuit by primary coil 13 form the circuit establishment that constitutes with diode 21 with capacitor 22 and adverse current prevention, utilize the voltage of the part 1 13a of primary coil 13, booster circuit is formed be charged to polarity shown in Figure 4 with capacitor 22.Because in the conduction period Ton shown in the t1～t2 in Fig. 5, utilize control impuls (pwm pulse) the control switch element 4 of control circuit 6 to be conducting state, so it is identical with the circuit of Fig. 1, the 1st electric current I 1 flows through the circuit that is made of input smoothing capacitor 2, primary coil 13 and switch element 4, simultaneously by by rectification circuit 1, reactance coil 20, the 2nd electric current I 2 that forms the circuit that the part 2 13b and the switch element 4 that boost with capacitor 22, primary coil 13 constitute is mobile.Therefore, the electric current I s that flows through switch element 4 be the 1st and the 2nd electric current I 1 and I2 and.The electric current of electric current I L in conduction period Ton of reactance coil 20 shown in Figure 5 is consistent with the 2nd electric current I 2.If the 2nd electric current I 2 flows through reactance coil 20 in conduction period Ton, just energy is accumulated in here.As shown in Figure 5, because in this conduction period Ton, adverse current stops the relative step-down of current potential V2 with the some P1 of the anode-side of diode 21, so diode 21 is reverse-bias state, keeps nonconducting state.In addition, between the voltage VL between the terminal of the reactance coil 20 in Fig. 5 and the output voltage V 1 of rectification circuit 1 and the current potential V2 that P1 is ordered, formula VL=V1-V2 sets up.

If establishing the voltage of primary coil 13 in the blocking interval Toff and be the number of turn of Vp, part 1 13a and be the number of turn of Na, part 2 13b is Nb, then the voltage Va of part 1 13a is Vp Na/ (Na+Nb) in blocking interval Toff, and Va charges to capacitor 22 by this voltage.In addition, the voltage Vb of part 2 13b is Vc1 Nb/ (Na+Nb) in conduction period Ton.Above-mentioned voltage Vb is identical with V3 in conduction period Ton.Therefore, in conduction period Ton, the voltage VL that is applied on the reactance coil 20 can represent with following formula:

VL＝V1+Va-Vb。

Because in the blocking interval Toff shown in t2～t3 interval of Fig. 5, switch element 4 is off state, so can not flow through by the 1st and the 2nd electric current I 1, I2 and electric current I s that constitute.Illustrated, in this blocking interval Toff, the energy accumulation of transformer 3 discharges, simultaneously, the energy accumulation of reactance coil 20 discharges, and obtains the voltage after output voltage V 1 addition of the reactance voltage of reactance coil 20 and rectification circuit 1, because it is than the voltage Vc1 height of input smoothing capacitor 2, so adverse current stops with diode 21 conductings, flow through electric current I d as shown in Figure 5, so capacitor 2 is recharged.Illustrated, in this switch element 4 blocking interval Toff, also flow through the electric current that booster circuit formation is charged to polarity shown in Figure 4 with capacitor 22.

In this embodiment, the electric current I L that flows through reactance coil 20 be in the switch element 4 conduction period Ton the 2nd electric current I 2 and the diode current Id's in the blocking interval and.By the reactance coil electric current I L among Fig. 5 in each conduction period Ton waveform and the waveform of the electric current I s of switch element 4 as can be known: the amplitude direct proportion ground of the sinusoidal wave half-wave of the output voltage V 1 of the peak value of the 2nd electric current I 2 and rectification circuit 1 changes.As shown in Figure 5, the peak value of diode current Id is also along with the amplitude of rectifier output voltage V1 changes.Therefore, as shown in Figure 5, the envelope shown in the with dashed lines of the peak value of reactance coil electric current I L is sinusoidal wave half-wave.Its result, the envelope shown in the with dashed lines of the electric current I in of AC input terminal 8,9 is sine wave or near sinusoidal ripple.Therefore, can realize the improvement of waveform and the improvement of power factor.In addition, will remove the filter that high fdrequency component uses as required is connected between AC input terminal 8,9 and the AC power.

In addition, in the circuit of embodiment shown in Figure 4, although the output voltage V of rectification circuit 11 changes, the voltage Vc1 of input smoothing capacitor 2 roughly keeps certain.Therefore, the peak value of the voltage Vs of switch element 4 is roughly certain.

In addition, the link position of the tap 23 by changing primary coil 13 can be adjusted the electric current that flows through reactance coil 20, can set the voltage of capacitor 2 best.

[embodiment 2]

In embodiment shown in Figure 62, the transformer 3 of Fig. 4 is deformed into the transformer 3a with secondary coil 14, will export rectifier smoothing circuit 5 and be connected in parallel with respect to switch element 4, other structure is identical with Fig. 4.The input smoothing capacitor 2 of Fig. 6, transformer 3a, switch element 4 and output rectifier smoothing circuit 5 constitute well-known step-up DC-DC converter.

Circuit than coil 13 more close mains sides in this Fig. 6 is identical with the circuit of Fig. 4, so can obtain the effect identical with the 1st embodiment.

[embodiment 3]

The switching power unit of the 3rd embodiment shown in Figure 7 is provided with the one coil transformer 3b after transformer 3 distortion of Fig. 5, and other structure is identical with Fig. 5.The transformer of Fig. 7 is to have omitted secondary coil 14 from the transformer 3 of Fig. 4, is provided with the 2nd tap 30 in coil 13.Output rectifier smoothing circuit 5 is connected between the other end of tap 30 and coil 13.

Adopt the 3rd embodiment also can obtain the effect identical with the 1st embodiment.

[variation]

The invention is not restricted to the foregoing description, can carry out for example following distortion.

(1) switch element 4 is not limited to transistor, can be other semiconductor switchs such as FET.

(2) in order to form the control power supply, can in transformer 3, tertiary coil be set.

(3) in order to carry out Current Feedback Control, current detecting can be connected in series with resistance and switch element 4.

(4) with control circuit 6 distortion, the control form is turn-offed in the conducting that can change switch element 4.In addition, also can apply the present invention to auto-excitation type DC-DC converters such as RCC type.

(5) also can apply the present invention to the forward type DC-DC converter of diode 15 conductings when switch element 4 conductings.

Claims (4)

1. switching power unit, it is the switching power unit that the direct current power supply load is used, and it is characterized in that, possesses:

Have the AC input terminal that is connected on the AC power source of sine wave and the rectification circuit of a pair of direct current lead-out terminal;

The one end is connected one reactance coil of above-mentioned a pair of direct current lead-out terminal;

The one end is connected on the other end of above-mentioned reactance coil and has the diode that is carried out forward biased directivity by the output voltage of above-mentioned rectification circuit;

Be connected the input smoothing capacitor between another of the other end of above-mentioned diode and above-mentioned a pair of direct current lead-out terminal;

The one end is connected on the end of above-mentioned input smoothing capacitor and possesses the transformer of the coil of band tap;

Be connected the other end of coil of above-mentioned band tap and the switch element between above-mentioned another dc output end;

Being connected booster circuit between the tap of coil of the other end of above-mentioned reactance coil and above-mentioned band tap forms and uses capacitor;

Be connected the output rectifier smoothing circuit on the above-mentioned transformer; And

Above-mentioned switch element is carried out the control circuit of conducting-shutoff control usefulness with the frequency higher than the frequency of the alternating voltage of supplying with above-mentioned AC input terminal.

2. switching power unit according to claim 1 is characterized in that: above-mentioned transformer has and the secondary coil that has carried out electromagnetic coupled with the coil of above-mentioned tap,

Above-mentioned output rectifier smoothing circuit is connected on the above-mentioned secondary coil.

3. switching power unit according to claim 2 is characterized in that: utilization obtains on above-mentioned secondary coil in above-mentioned switch element blocking interval voltage carries out the directivity of conducting to above-mentioned output rectifier smoothing circuit and the output rectification that is connected with above-mentioned secondary coil constitutes with capacitor with the output smoothing that above-mentioned parallel connection of secondary windings is connected with diode with diode and by above-mentioned output rectification by having.

4. switching power unit according to claim 1 is characterized in that: above-mentioned output rectifier smoothing circuit and above-mentioned switch element are connected in parallel.

Images